http://arxiv.org/abs/1702.00430
Supernova SN Hunt248 was classified as a nonterminal eruption (a SN “impostor”) from a directly identified cool hypergiant star. The transient achieved peak luminosity equivalent to that of Eta Car’s historic outburst and exhibited a multi-peaked optical light curve that rapidly faded after ~100 days. We report ultraviolet (UV) through optical observations of SN Hunt248 with the Hubble Space Telescope (HST) ~1 yr after the outburst, and mid-infrared observations with the Spitzer Space Telescope before the burst and in decline. The HST data reveal a source that is a factor of ~10 fainter in the optical than the faintest available measurement of the precursor star, yet exhibits the same B-V colour. Substantial mid-infrared excess of the source is consistent with thermal emission from newly synthesized hot dust, possibly heated by a surviving star. However, the lack of substantial reddening of the UV-optical source appears inconsistent with substantial absorption of the stellar light; possible explanations for the discrepancy include UV-optical contamination from a neighbouring star, or inefficient dust absorption, perhaps the result of an aspherical dust distribution. Reanalysis of the earlier outburst data shows that the peak luminosity and outflow velocity of the eruption are consistent with a trend exhibited by stellar merger candidates. Alternatively, if SN Hunt248 marked the genuine death of a massive star from a weak explosion or failed SN, then the late-time photometry suggests that <6.5e-4 Msun of radioactive Ni-56 was synthesized. Future space-based monitoring of the UV-infrared counterpart is necessary to elucidate the nature of the source, the outburst, and the uncertain fate of the culprit star.
J. Mauerhan, S. Dyk, J. Johansson, et. al.
Fri, 3 Feb 17
4/55
Comments: Submitted to MNRAS 2017, Jan 31; 8 pages, 8 figures